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llvm-project/flang-rt/lib/runtime/internal-unit.cpp
agozillon 30d2cb5a7e
[Flang][OpenMP][Runtime] Minor Flang runtime for OpenMP AMDGPU modifications (#152631) 
We have some modifications downstream to compile the flang runtime for
amdgpu using clang OpenMP, some more hacky than others to workaround
(hopefully temporary) compiler issues. The additions here are the
non-hacky alterations.

Main changes:
* Create freestanding versions of memcpy, strlen and memmove, and
replace std:: references with these so that we can default to std:: when
it's available, or our own Flang implementation when it's not. * Wrap
more bits and pieces of the library in declare target wrappers (RT_*
macros). * Fix some warnings that'll pose issues with werror on, in this
case having the namespace infront of variables passed to templates.

Another minor issues that'll likely still pop up depending on the
program you're linking with is that abort will be undefined, it is
perhaps possible to solve it with a freestanding implementation as with
memcpy etc. but we end up with multiple definitions in this case. An
alternative is to create an empty extern "c" version (which can be empty
or forwrd on to the builtin).

Co-author: Dan Palermo Dan.Palermo@amd.com
2025-08-29 23:04:48 +02:00

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//===-- lib/runtime/internal-unit.cpp ---------------------------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "flang-rt/runtime/internal-unit.h"
#include "flang-rt/runtime/descriptor.h"
#include "flang-rt/runtime/io-error.h"
#include "flang/Runtime/freestanding-tools.h"
#include <algorithm>
#include <type_traits>
namespace Fortran::runtime::io {
RT_OFFLOAD_API_GROUP_BEGIN
template <Direction DIR>
RT_API_ATTRS InternalDescriptorUnit<DIR>::InternalDescriptorUnit(
Scalar scalar, std::size_t length, int kind) {
internalIoCharKind = kind;
recordLength = length;
endfileRecordNumber = 2;
void *pointer{reinterpret_cast<void *>(const_cast<char *>(scalar))};
descriptor().Establish(TypeCode{TypeCategory::Character, kind}, length * kind,
pointer, 0, nullptr, CFI_attribute_pointer);
}
template <Direction DIR>
RT_API_ATTRS InternalDescriptorUnit<DIR>::InternalDescriptorUnit(
const Descriptor &that, const Terminator &terminator) {
auto thatType{that.type().GetCategoryAndKind()};
RUNTIME_CHECK(terminator, thatType.has_value());
RUNTIME_CHECK(terminator, thatType->first == TypeCategory::Character);
Descriptor &d{descriptor()};
RUNTIME_CHECK(
terminator, that.SizeInBytes() <= d.SizeInBytes(maxRank, true, 0));
RUNTIME_CHECK(terminator,
that.SizeInBytes() <= MaxDescriptorSizeInBytes(maxRank, true, 0));
new (&d) Descriptor{that};
d.Check();
internalIoCharKind = thatType->second;
recordLength = d.ElementBytes();
endfileRecordNumber = d.Elements() + 1;
}
template <Direction DIR>
RT_API_ATTRS bool InternalDescriptorUnit<DIR>::Emit(
const char *data, std::size_t bytes, IoErrorHandler &handler) {
if constexpr (DIR == Direction::Input) {
handler.Crash("InternalDescriptorUnit<Direction::Input>::Emit() called");
return false && data[bytes] != 0; // bogus compare silences GCC warning
} else {
if (bytes <= 0) {
return true;
}
char *record{CurrentRecord()};
if (!record) {
handler.SignalError(IostatInternalWriteOverrun);
return false;
}
auto furthestAfter{std::max(furthestPositionInRecord,
positionInRecord + static_cast<std::int64_t>(bytes))};
bool ok{true};
if (furthestAfter > static_cast<std::int64_t>(recordLength.value_or(0))) {
handler.SignalError(IostatRecordWriteOverrun);
furthestAfter = recordLength.value_or(0);
bytes = std::max(std::int64_t{0}, furthestAfter - positionInRecord);
ok = false;
} else if (positionInRecord > furthestPositionInRecord) {
BlankFill(record + furthestPositionInRecord,
positionInRecord - furthestPositionInRecord);
}
runtime::memcpy(record + positionInRecord, data, bytes);
positionInRecord += bytes;
furthestPositionInRecord = furthestAfter;
return ok;
}
}
template <Direction DIR>
RT_API_ATTRS std::size_t InternalDescriptorUnit<DIR>::GetNextInputBytes(
const char *&p, IoErrorHandler &handler) {
p = nullptr;
if constexpr (DIR == Direction::Output) {
handler.Crash("InternalDescriptorUnit<Direction::Output>::"
"GetNextInputBytes() called");
return 0;
} else {
const char *record{CurrentRecord()};
if (!record) {
handler.SignalEnd();
return 0;
} else if (positionInRecord >= recordLength.value_or(positionInRecord)) {
return 0;
} else {
p = &record[positionInRecord];
return *recordLength - positionInRecord;
}
}
}
template <Direction DIR>
RT_API_ATTRS std::size_t InternalDescriptorUnit<DIR>::ViewBytesInRecord(
const char *&p, bool forward) const {
p = nullptr;
auto recl{recordLength.value_or(positionInRecord)};
const char *record{CurrentRecord()};
if (forward) {
if (positionInRecord < recl) {
if (record) {
p = &record[positionInRecord];
}
return recl - positionInRecord;
}
} else {
if (record && positionInRecord <= recl) {
p = &record[positionInRecord];
}
return positionInRecord - leftTabLimit.value_or(0);
}
return 0;
}
template <Direction DIR>
RT_API_ATTRS bool InternalDescriptorUnit<DIR>::AdvanceRecord(
IoErrorHandler &handler) {
if (currentRecordNumber >= endfileRecordNumber.value_or(0)) {
if constexpr (DIR == Direction::Input) {
handler.SignalEnd();
} else {
handler.SignalError(IostatInternalWriteOverrun);
}
return false;
}
if constexpr (DIR == Direction::Output) {
BlankFillOutputRecord();
}
++currentRecordNumber;
BeginRecord();
return true;
}
template <Direction DIR>
RT_API_ATTRS void InternalDescriptorUnit<DIR>::BlankFill(
char *at, std::size_t bytes) {
switch (internalIoCharKind) {
case 2:
Fortran::runtime::fill_n(reinterpret_cast<char16_t *>(at), bytes / 2,
static_cast<char16_t>(' '));
break;
case 4:
Fortran::runtime::fill_n(reinterpret_cast<char32_t *>(at), bytes / 4,
static_cast<char32_t>(' '));
break;
default:
Fortran::runtime::fill_n(at, bytes, ' ');
break;
}
}
template <Direction DIR>
RT_API_ATTRS void InternalDescriptorUnit<DIR>::BlankFillOutputRecord() {
if constexpr (DIR == Direction::Output) {
if (furthestPositionInRecord <
recordLength.value_or(furthestPositionInRecord)) {
BlankFill(CurrentRecord() + furthestPositionInRecord,
*recordLength - furthestPositionInRecord);
}
}
}
template <Direction DIR>
RT_API_ATTRS void InternalDescriptorUnit<DIR>::BackspaceRecord(
IoErrorHandler &handler) {
RUNTIME_CHECK(handler, currentRecordNumber > 1);
--currentRecordNumber;
BeginRecord();
}
template <Direction DIR>
RT_API_ATTRS std::int64_t InternalDescriptorUnit<DIR>::InquirePos() {
return (currentRecordNumber - 1) * recordLength.value_or(0) +
positionInRecord + 1;
}
template class InternalDescriptorUnit<Direction::Output>;
template class InternalDescriptorUnit<Direction::Input>;
RT_OFFLOAD_API_GROUP_END
} // namespace Fortran::runtime::io
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